Fractionating apparatus



May l2, 1936. D. K. DEAN ET A1. 2,040,431

`FRAGTIONATING APPARATUS Filed April 25, 1930 Patented May 12, 1936 PATENT OFFICE l 2,040,431 FRACTIONATING APPARATUS Dion K: Dean, Rahway, and Everett Normanv Sieder, Elizabeth, N. J., assignors to Foster Wheeler Corporation, NewYork, N. Y., a corporation of New York Application April as, 1930, serial No. 446,44

3s claims. (ci. 19o-e114) This invention relates to the fractional distillation of composite liquids, such as hydrocarbon oils and the like, and more particularly to vacuum fractionating systems and methods of operating the same. I

In the fractional distillation of hydrocarbon oils and the like in vacuum fractionating towers, the oll which has been previously heated to a high temperature is generally introduced into the base of the tower at 'a temperature suiiiciently high to y iiash a portion of the oil into vapor. The vapor iiashed off is customarily passed through fractionating or distilling sections of the tower gener- `ally comprising a. series of bubble trays, where the vapor is passed countercurrent to reflux oil with a consequent fractionation of the condensible constituents of the vapor. The vapor not condensed in its passage through the bubble trays ordinarily passes out of the top of the tower through suitable heat exchanger equipment to vacuum producing condensers.

I'he path over which the vapor iiows from the ash chamber at the base of the tower to the condensing equipment is relatively long and the resistance to the ow of the Vapor along this path through the many bubble trays, vapor lines and heat exchanger equipment, is usually appreciable. As a result of this resistance, an appreciable amount of the vacuum produced by the condensing equipment is lost by the friction developed in theow of the vapor through the tower.

Moreover, in fractionating towersof this type, stripping steam is generally introduced directly into the liquid oil at desired points in the tower to eiect a final separation of the light ends that may be contained in the oil at such points. As is generally understood, the lintroduction of stripping steam causes a lowering of the partial oil vapor pressuresthroughout the bodyl of the oil to such an extent that the light ends contained therein will be vaporized and carried oi with the stripping steam. Because of the fact that the total absolute pressures at the points of stripping in vacuum fractionating towers are generallyappreciably higher than that -corresponding to the vacuum produced by the condensing equipment, excessively large amounts of steam must ordinarily be used for stripping in order to reduce the partial oil vapor pressures to values low enough to properly rid the oil of the light ends. The use of this excessive amount of steam usually tends 'co-increase the pressure drop 'caused by the friction in the flow of the oil vapors from the flash -chamber through the tower because the stripping steam at times occupies as large a volume as the lfavorably the final products produced.

oil vapors themselves and results in a'material reduction in the economy of operation of the fractionating system, and, in some cases, affects un- This invention contemplates the provision of 5 a vacuum fractionating system orA tower in-which the pressure drop ordinarily due to the friction in the flow of vapors therethrough and to the stripping steam introduced therein is avoided; the vacuum at the iiash chamber in the system or tower is increased; practically the full vacuum produced by the condensing equipment is made available directly within the stripping sections, and the amount of steam necessary for eii'ectlve stripping is materially decreased.

The invention is characterized by the fact that the several stripping sections in the fractionating A'system or tower are enclosed and the stripping steam introduced into the stripping sections together with the vapors evolved therein, are caused to by-pass the fractionating or distilling sections of the tower in their path of travel to the condenslng apparatus, instead of passing through the fractionating or distilling sections as has generally been the practice heretofore.

-sections to thecondensing equipment and which by-passes the fractionating sections, whereby higher vacua are produced in the stripping sections than in the `fractionating or distillating-sec- "tions of the system.

Other characteristics, objects and features of the invention will be apparent from the following description taken in connectionwith the accompanying drawing formingl part of this application, in which:

Fig. 1 is a more or less principally in longitudinal section,- 4of a vacuum fractionating tower and associated equipment embodying the invention; and' Y Fig. 2l is a sectional view similar to Fig. 1 of a portion of a'vacum fractionating tower embody- 45 ing another form of the invention.

Like characters of reference refer to similar parts throughout .the several views.

Referring to the drawing, II) represents the s ell of 1 a vacuum ractionating towerhaving an 50 il inlet l I, a flash chamber l2, baille plates I3 and .bubble trays I4 vprovided with downow pipes I5.

the heat exchanger with a barometric condenser diagrammatic view, 4o

qiiow of these vapors through the bubble trays,

heat exchanger equipment and vapor lines, there has been an excessive pressure drop throughout the tower with the consequent disadvantages referred to above.

' In accordance with this invention, however, the zones .in the tower into which stripping steam is introduced, or the stripping sections, are entirely enclosed in any suitable manner so that they will be cut off from the tower proper and so that the steam and vapors from the stripping sections will not flow into the fractionating sections of the tower below oil inlet II.

towerbut will by-pass the same. K

As shown, 8. .plate 20, having preferably a depressed portion 2|, is mounted in the base of the An enclosed stripping section representedgenerally at 22 yis `mounted in the base of the tower preferably in the position shown with relation tothe plate 20. This stripping section preferably comprises a substantiallyl cylindrical shell 23 with a series of spaced bubble trays 24 therein, provided with downflow pipes 25. Oil enters the stripping section 22 from the flash chamber I2 through a loop seal 26, stripping steam is introduced thereinto through inlet 21 and bottoms are drawn off from the stripping section through the outlet 28. The stripping steam introduced into the section 22 and the lighter ends removed therefrom, flow into and through a vapor line 29 to a heat exchanger 30 and through vapor line 3| into vapor line I8 and thence vinto condenser I 9. The liquids condensed in the heat exchanger 30 may be refluxed back to the tower through connections 32 or all or a part of the liquid may be conducted to a re-runtank through connection 33, valves 34 and 35 being provided to control this flow.

The vapors owing from the heat exchanger 39 to the condenser I9 may flow through the vapor line 3| as previously described, or, if desired, the vapor may be caused to pass through a steam jet vacuum pump 36 suitably connected to the vapor line 3| as shown. Valves 31, 38 and 39 control the flow of vapor through the vapor line 3| and/or the pump 36.

The upper stripping sections located at various points throughout the upper portion of the tower and which serve the side streams or intermediateI fractions may be arranged somewhat similarly' to the stripping sections at the bottom of the tower previously described. Only one of the upper strip,

ping sections has been shown in the drawing, and only one will be described herein, but it will vbe understood that the disclosure will apply as well to the other stripping sections located in the upper i part of the tower.

As shown, the upper strippingsection represented Vgenerally at 49 is preferably enclosed in any suitable manner as by means of the ring-shaped shell 4I, mounted in receiving ring 4Ia on'the plate 42 and in engagement withthe shell III of thetower.` Plate 42 has a tubular vapor uptake 43 located centrally thereof and a plate 44 having a central aperture through Ywhich the uptake 43 extends, lis mounted in the toveradjacen-t the upper end of the vapor uptake 43 andencloses the receiving ring 4 Ia. Reflux from the bubbletrays above the stripping section 40 accumulates on..

- is introduced into the stripping section 40 preferably through an inlet 41 connected to a steam coil 46 located in the lower part of the stripping section and having apertures 49 in the bottom thereof. Oil from stripping section 40 passes through connection 50 to a rundown tank, not shown. The steam introduced into the stripping section 40 and the vapors stripped from the oil therein, are preferably vconducted rto condenser I9 in a manner similar to that by which steam and vapors are conducted from stripping section 22 to the condenser I9. The vapors and steam from the stripping section 40 pass through vapor line 5I to a heat exchanger 52 and thence through vapor line 53 to'vapor line I6 a'nd to condenser I9. The liquid condensed in heat exchanger 52 may be reuxed back to the tower through connection 54 or may, if desired, be conducted to a re-run tank,

not shown, through connection 55, suitable valves 56 and 51 being provided to control the ow of this lower stripping section 22, the vapors from the heat exchanger 52 may be caused to pass through a. steam jet vacuum pump 58 suitablylconnected to the vapor line 53, the vapor flow being controlled by the valves 59, 69 and 6I In the operation of the tower, oil which has previously been` heated, is introduced into the flash chamber I2 throughinlet II at such a temperature that a portionof the oil is flashed into vapor. 'I'he vapors flashed off pass upwardly through the tower past baiiies I3 andthrough bubble trays I4 into vapor line I6, through heat exchanger I1. and vapor line I6 to barometricI jet vacuum pump 36 connected to vapor line 3|.

With this arrangement, the steam and vapors from the. stripping section 22 are caused to bypass the fractionating or distilling sections of the-tower and are passed directly to the condenser I9 through heat exchanger 3II and through pump36, if desired. It will thus be seen that the pressure drop hereinbefore referred to' through the towerand due to the resistance to the flow of the steam and oil vapors through the fractionat- *ing sections ofthe tower, will be avoided, practically the full vacuum produced by the condenser is made available in the stripping sections, and vif the vapors are passed through the steam jet vacuum pump 36, even higher vacua will be produced in the stripping sections than in the fractionating sections of the tower, and in addition the amount of steam necessary for stripping will be decreased'. Y

The same will be true of the upper stripping ,as 5| directly' to condenser le through heet vexchanger equipment such as 52, and, if desired, f

through steam jet vacuum pumps, als 58.

In the form of the invention shown in Fig. 2, all or part of the stripping steam introduced into the lower stripping section 22 may be conducted to one or more of the upper stripping sections and there re-usedA for stripping. As shown, all or part of the steam andoil vapors passingl through vapor line 29 from stripping section 22 may be'caused to pass through steam. jet 'vacuum pump 62 and all or part ofthe vapors discharged from jet 82 may now through con- .v nection 85 and line il to the stripping section Il and thence through line 66 to the stripping -section above and in like manner through anyor I all of Athe other stripping sections employed, orv

all or part of the vapors discharged from jet 62 may pass through vapor line 29 to heat exchanger and nally to condenser I9, or, al1 or part of the steam and vapors may be caused to iloiw through theconnection 63 and all or part of the steam and vapors thus passing through connection 63 may flow lthrough vapor line 64 to an upper'stripping section 40, Aor

through a connection 65 to the condenser I9 through heat exchanger 30. Suitable valves are provided, as shown, for controlling the ilow oi steam and vapors as desired. l

The stripping steam so conducted to an upper .stripping section 40 from the lower stripping section 22 and thence reused for stripping, may, with the entrained `oi1 vapors, be passed to thev condenser I9 through vapor line 5| or may, if

desired, be conducted through vapor line 676 to another stripping section andy there re-used for l stripping. In this form, it is apparent that vwhether the stripping steam introduced into one of the stripping sections is `reused in another stripping section or not,`the steam and the entrained oil vapors are caused to by-pass -the fractionating sections of the tower and thus avoid`the pressure drop through the tower and the attendant disadvantages.

In either of the forms of theinvention disclosed, it is apparent that the strippingvsteam is kept out of the heat exchanger equipment which s -is associated with the fractionating system, as a result of which the efllciency of the heat exchanger equipment is increased, so that the use of smaller equipment for meeting certain con-A ditions may be possible. F While a vacuum fractionating tower has been disclosed with the stripping sections arranged in- Y not to be limited except by the scope of the appended claims.

side the tower, it will, of course, be understood that any one or all of the stripping sections employed may be located outside the tower.

It is understood that the forms of the invention shown and described are to be considered preferred forms only and that the invention is flash chamber, a plurality of. i'ractionating sections and a plurality of V-stripping sections arranged alternately with the fractlonating seotions, means connecting the hash chamber with one of lthe stripping sections, means for maintaining a vacuum in the tower, means for conducting vapors from the fractionating sections to the. vacuum maintaining means and means by passing the fractionating sections and the tower for conducting vapors from the stripping sections to the vacuum maintaining means.

'3. A fractionating tower comprising a tractionating section and an enclosed stripping section, vacuum producing means, a conduit connecting the factionating section with said means, a second conduit connecting the enclosed stripping section and said means, whereby vacua are maintained in the `tractionating and stripping sections, and additional vacuum-producing means in thesaid second conduit whereby a higher vac-A a plurality of :tractionating sections and a plu` rality of stripping sections, Ameans for supplying steam to one of the stripping sections and means'i'or conducting steam from said stripping x section to another stripping section. 'l A 5. A vacuum fractionating tower comprising a plurality of iractionating sections and a plurality oi' stripping sections, means for supplying steam to at least one of jthe stripping sections, and means comprising conduits connecting the stripping sections for conducting steam from one stripping section to another.

6.'A vacuum -fractionating tower comprising a plurality of fractionating sections and a plurality oi.' stripping sections arranged alternately with the fractionating sections and means bypassing the fractionating sections for conducting vapors from one stripping section to another.

'7. A vacuum fractionating tower ,comprising a plurality of fractionating sections and a plurality oi.' stripping sections arranged 'alternately with the fractionating sections, means connected with the tower and adapted to maintain a vacuum therein, and meansAby-passing the fractionating sections for conducting vapors from one stripping section to another and to the vacuum maintaining means.

8. A vacuum fractionating tower comprising aplurality of fraoiionating sections and a plurality of stripping sections arranged alternately with the fractionating sections, means connected with the tower and adapted to maintain a vacuum...

therein, conduits connecting the stripping sec- -tions and said means wherebyvaporsirom the stripping sections are caused to by-pass the fractionating sections, and vacuum producing means in said conduits.

9. A vacuum fractionating tower comprising a plurality offractionatingA sections and a pluralily of stripping' sections arranged alternately ,with the fractionating sections, means for maintaining a vacuum within the tower, means connecting the vacuum maintaining means and the tower, a' conduit connecting each stripping sec-'- tion with another, a conduit connectingnne of the stripping sections-with the vacuum maintainingvmeans whereby vapors` from thestripping sectionsby-pass the fractionating sections and afre conducted from one strippingsection to another-and from one otsaid strippingsectio'ns to the vacuum maintaining means, and vacuum) producing means in the Lconduits connecting the I vfractionating section and a stripping section.`

higher ',vacna are maintained-in the stripping sections than in the fractionating sections.

10. A vacuum fractionating tower comprising a plurality of fractionating sections and a plurality of stripping sections arranged alternately with the fractionating sections, vacuum maintaining means for maintaining a vacuum within the tower, means for connecting the vacuum maintaining means and the tower, conduits connecting each stripping section with another and connecting the uppermost stripping section with the vacuum maintaining means whereby vapors from the stripping sections by-pass the fractionating sections and are conducted from one stripping section to another and from the uppermost stripping section to the vacuum maintaining means, and vacuum producing means in the conduits connecting the stripping sections and in the conduit connecting the uppermost stripping section with the first mentioned vacuum maintaining means whereby ,higher vacua are maintained in the stripping sections than in the fractionating sections.

11. Axvacuum fractionating tower comprising a plurality of fractionating sections and a plurality 'of stripping sections arranged alternately with the fractionating sections, vacuum producing means .for maintaining a vacuum within the tower, means for connecting the vacuum prod ucing means and thev tower, a conduit connecting each stripping section with another, a conduit connecting the uppermost strippingsection with the vacuum producing means, whereby vapors from the stripping sections by-pass the fractionating sections and are conducted from one stripping section to another and from the uppermost striptionating section and a stripping section; vacuum producing means adapted to maintain vacua in the fractionating section and the stripping section and additional vacuum producing means intermediate the stripping section and the first mentioned vacuum producing means.

13. Fractipnating apparatus comprising a vacuum producing means -connectedto the fractionating section and the stripping section and additional vacuum producing means in'the connection between the stripping section and the first mentioned vacuum producing means.

14. Fractionating apparatus comprising a fractionating tower having means therein for passing vapors counter-current to liquid,` an enclosed stripping section in the tower, vacuum producing means connected to the tower'and to the stripping section and additional vacuum producing means in the connection between the stripping section and the ilrst mentioned vacuum producing mms.

vacuum producing means and a by-pass aroundl said additional vacuum producing means.

16. Fractionating apparatus comprising a fractionating section and a 'plurality of stripping sections, means for supplying steam to one of the stripping sections and means for conducting steam from said stripping sectiin `to another stripping section. 17. Fractionating apparatus comprising.. a

fractionating towery having means therein for'` passing vapors counter-current to liquid, a plurality of enclosed stripping sections, vacuum producing means connected to the tower and to each of the stripping sections, means for withdrawing liquid from different levels of the tower and introducing such liquid into the several stripping sections, means for introducing steam into at least one of the stripping sections, a connection between said last mentioned stripping section and another stripping section and vacuum prostripping sections, means for introducing steam into at least one of the stripping sections, aconnection between said last mentioned stripping section and another stripping section, vacuum producing means in the connection between the stripping sections and a by-pass in said connection around said vacuum producing means.

19. A method of stripping the lower boiling fractions from intermediate fractional conden-V j sates obtained by the fractional distillation `of 4hydrocarbon oils which includes the steps of fractionating hydrocarbon oil in a fractionating zone in which a plurality of fractional condensates are formed, withdrawing said condensates,

from said fractionating zone and introducing them into stripping zones maintained at respective lower pressures` than 'those existing at the points in the fractionating zone from which said fractional condensates are withdrawn, stripping scid condensates with steam and withdrawing the respective strip from `said stripping zones, the operation-being such that the steam and vapors evolved 'in stripping a fractional condensate will'- contact fractional condensates in -saidv 'with the lighter stripping zones.

20. The method of fractionally distilling hydrocarbon oils which comprises passing vapors of the oil through a fractionating zone 'in which vapors are condensed in separate pools vof condensates, removing condensates from a plurality of said pools and introducing Vsaid condensates d fractional condensatesl respectively into a plurality of stripping zones wherein the condensate is out of direct` contact with the vapors in theV fractionating zone, introducing ,a stripping medium into onev of the stripping zones' to remove the light constituents ping medium andthe vapors evolved in the last mentioned stripping' zone into contact with the vcondensate in another stripping zone, and withdrawing stripped condensate from each stripping zone. i

2i. 'rnc inctiiod or rrcctionnuyv' distuiing from'the condensate therein, passing the striprespectively into a plurality -of"stri pping zones mentioned stripping zone into contact with a lighter fractional condensate in another stripping zone and withdrawing stripped condensate from each stripping zone.

22. The method of fractionally distilling hydrocarbon oils which comprises passing vaporsof the oil through a fractionating zone in which vapors are condensed in separate pools of condensates, removing condensates from a'plurality of said pools and introducing said condensates respectively into a plurality of stripping zones wherein the condensate is out of direct contact with the vapors in the fractionating zone, maintaining a ,pressure in each stripping zone which is lower than the pressure at the point in the fractionating zone fromv which the condensate is withdrawn for introduction into the stripping zone, introducing a stripping medium into one of the stripping zones vto remove the'light constituents from the condensate therein, passing the stripping medium and the vapors evolved in the last mentioned stripping. zone into contact with-the condensate in another stripping zone, and withdrawing stripped condensate from each stripping zone. Y

23. The method of fractionally distilling hydrocarbon oils which comprises passing vapors of the oil through a fractionating zone in which vapors are.oondensed in separate pools of condensates, removing condensates from a plurality of said pools and introducing said condensates respectively into a plurality of stripping zones wherein the condensate is out of direct contact with the vapors in the fractionating zone, in,- troducing a stripping medium into each stripping zone to remove the light constituents from the condensate therein, passing the stripping medium and the vapors evolved in one of the stripping zones into contact with a 'lighter fractional condensate in another stripping zone and withdrawing stripped condensate from each strippingzone.

24. The method of fractionally distilling hydrocarbon oils which comprises introducing oil heated to vaporization temperature into a fractionating zone wherein part of the oil is vaporized and separated from the unvapox'izedv portion, fractionally condensingthe vaporized portion of the oil in separate pools of condensate, removing condensate from one of said poolsand introducing it into a stripping zone, removing the unvaporized portion of the oil from the fractionating zone and introducing it into another stripping zone, introducing a stripping medium into the last mentioned stripping lzone to remove the light constituents ,'i'rom the oill therein, passing the stripping medium and the vapors evolved in the last mentioned -stripping zone into contact with the condensate in the iirst mentioned stripping zone, and withdrawing strippedliquid from each stripping zone.

25. Fractionating apparatus comprising va. fractionating section wherein a plurality of pools of fractional condensates arev formed, a plurality of stripping sections, means for withdrawing condensate from a plurality of said pools in the fractionating section and introducing the same respectively intof-the, strippingsections, means for introducing a stripping medium into' contact with the condensate in one of the stripping sections to remove the light constituents therefrom, means for ing the stripping medium and the vapors evolved from said stripping section into contact with the condensate in another stripping section,- and means for withdrawing stripped condente from the stripping sections.

26. Fractionating apparatus comprising a fractionating section wherein a plurality of pools of stripping sections, means for withdrawing condensate from a plurality of said pools in the frac-y tionating section and introducing the same respectively into the stripping sections, means for introducing a stripping medium into contact with yl0 fractional condensates are formed, a plurality of v u the condensate in one ofthe stripping sections to remove the light constituents therefrom, means for passing the stripping medium and the vapors evolved from said stripping section into contact with a lighter fractional condensate in another',

stripping section, and meansvior withdrawing stripped condensate from the stripping sections.

27. Fractionating apparatus comprising a frac- 4 tionating section wherein a plurality oi pools of 'fractional condensates are formed, a plurality of stripping sections, means for withdrawing condensatefrom a plurality of said pools in the frac- -tionating section and introducing the same respectively into the stripping sections, means for` maintaining a pressure in each stripping section 1 which is lower than the pressure atthe point in the fractionating section from which the condensate islwithdrawn for vintroduction into thestripping section, means for introducing a stripping medium into contact with the condensate in one of the stripping sectionsto remove the light constituents therefrom, means for passing the stripping medium land the vapors evolved from said stripping section into contact with the -condensate in another stripping section, and means for withdrawing strippedv condensate from the stripping sections.

als4

28. Fractionating apparatus comprising a iractionating section, means for introducing oil heated to ,vaporization temperature into the frac- -tionating section wherein part of the oilis vaporized and separated from the unvaporized' portion; means in the ractionating section .for fractionally condensing thevaporized'portion ofthe oil in separate pools of condensate, a stripping section, means for removing condensate from one of the pools in the fractionating section and introducing it into the'stripping section, a second stripping section, means for removing unvaporized oil from the fractionating section and introducing it into the second. stripping section, means for introducing a stripping medium into the second stripping section to remove the light constituents from the oil therein, means for passing the stripping medium and the vapors evolved in the second stripping section into contact with the con'- densate in the first mentioned stripping section, and means for withdrawing stripped liquid from each stripping section.

29. A method of strippingthe lower boiling fractions from condensate fractional side streams obtained by the fractional distillation. of hydrocarbon oils which includes the steps of fractionating hydrooarbon'oil ina fractionating zone in which a plurality of fractional condensates are formed, withdrawing'said condensates and intro-` duc'ing them into a stripping zone at respective said condensates with steam while the evolved vaporsy and steam countercurrent to the respective fractional condensates entering said stripping zone and withdrawing the vrespective stripped fractional condensates from said stripping zone, the operation being such that the steam which is lower than thevpressure at the point in the fractionating section from which the condensate is withdrawn for introduction into the stripping sections, means for introducing a'stripping medium into contact with the condensate in one of the' stripping sections to remove the light constituents therefrom, means for passing the stripping medium and the vapors evolved from said stripping section into contact with a lighter fractional condensate in another stripping section, and means for withdrawing stripped condensate from the stripping sections. Y

31. Fractionating apparatus comprising a fractionating section, means for introducing oil heated to vaporization temperature into the fractionating section wherein part of the oil is vaporized andV separated from the unvaporized portion, means in the fractionating section for fractionally condensing the vaporized portion of the oil in separate pools ofcondensate, a striping Sec" tion, meansfor removing condensate from one of the pools in the fractionating section and introducing it `into the stripping section, a second stripping section, means for removing a lighter fractional condensate'from the fractionating section and introducing it into the second stripping section, means for introducing a stripping medium into the ilrst stripping section to remove the light constituents from the oil therein, means for passing the stripping medium and the vapors evolved in the first stripping section into'contact witli the condensate 'in the second stripping section, and means for withdrawing stripped liquid from each stripping section.

fractional condensates were withdrawn, stripping 32. Fractionating apparatus kcomprising a fractionating section, means for introducing .oil heated to vaporization temperature into the fractionatingsection wherein part of the-oil is"va POrized and separated from the unvaporized por-v" tion, means in the fractionating section for fractionally condensing the vapor-ized portion of the oil in separate pools of condensate, a stripping section, means for removing condensate from one of the pools in the fractionating section and' introducing it into the stripping section, a second stripping section, means'for removing unvaporized oil from the fractionating section and introducing it into the second stripping section, means for introducing a stripping medium into the second stripping section to remove the light con- 'stituentsfrom the oil therein, means for passing the stripping medium and the vapors evolved in the second stripping section into contact withl the condensate in the first mentioned lstripping section, means for withdrawing stripped liquid' from each stripping section, means for condensing the vapors evolved inthe stripping sections, and means for returning said condensate to said fractionating section as reflux.

33. Fractionating apparatus'conprising a fractionating section, means for introducing oil heated to vaporization temperature into the fractionating section wherein part of the oil' is vafor passing the stripping medium and the vapors evolved in the irst stripping section into contact with the condensate in the second stripping se'ction, means for withdrawing stripped liquid from each stripping section, means for condensing the EvEnETr NORMAN VSIEDER. 

